#ifndef __cxxtest__TangoPrinter_h__
#define __cxxtest__TangoPrinter_h__

//
// The TangoPrinter is a TestListener tailored to Tango testing needs.
// The TangoPrinter uses std::cout
//

#include <cxxtest/Flags.h>

#ifndef _CXXTEST_HAVE_STD
#   define _CXXTEST_HAVE_STD
#endif // _CXXTEST_HAVE_STD

#include <cxxtest/ErrorFormatter.h>
#include <cxxtest/StdValueTraits.h>

#ifdef _CXXTEST_OLD_STD
#   include <iostream.h>
#else // !_CXXTEST_OLD_STD
#   include <iostream>
#endif // _CXXTEST_OLD_STD

#include <stdio.h>
#include <stdlib.h>
#include <iostream>
#include <string>
#include <string.h>
#include <map>
#include <config.h>
#include <cstdlib>

// Tango exceptions handling
//#undef _TS_CATCH_ABORT
//#define _TS_CATCH_ABORT(b) _TS_CATCH_TYPE( (const Tango::DevFailed &e), {cout << "\n\nException : \n" << endl; Tango::Except::print_exception(e); throw;} ) _TS_CATCH_TYPE( (const CxxTest::AbortTest &), b )
#undef _TS_LAST_CATCH
#define _TS_LAST_CATCH(b) _TS_CATCH_TYPE( (const Tango::DevFailed &e), {cout << "\n\nException : \n" << endl; Tango::Except::print_exception(e); b} ) _TS_CATCH_TYPE( (...), b )

// This is a trick to deal with compiler warnings while catching DevFailed multiple times
// TODO: Remove this code when issue #53 (https://github.com/CxxTest/cxxtest/issues/53) is fixed
#undef ___TS_ASSERT_THROWS_ASSERT
#define ___TS_ASSERT_THROWS_ASSERT(f, l, e, t, a, m) { \
        bool _ts_threw_expected = false, _ts_threw_else = false; \
        _TS_TRY { _TS_TRY { e; } _TS_CATCH_TYPE( (t), { a; _ts_threw_expected = true; } ) } \
        _TS_CATCH_ABORT( { throw; } ) \
        _TS_LAST_CATCH( { _ts_threw_else = true; } ) \
        if ( !_ts_threw_expected ) { CxxTest::doFailAssertThrows( (f), (l), #e, #t, _ts_threw_else, (m) ); } }

namespace CxxTest
{
using namespace std;

class TangoPrinter: public ErrorFormatter
{
private:
    /*
     * command line parameters counter
     */
    static int argc;
    /*
     * command line parameters array
     */
    static char **argv;
    /*
     * user arguments counter
     */
    static int uargc;
    /*
     * vector of user arguments detected automatically from the
     * command line arguments and interpreted as those which are not declared in
     * the 'params' map
     * (example: ./run_tests user_param_1 user_param_2 --loop=10 ==> uargv[0] == "user_param_1"; uargv[1] == "user_param_2")
     */
    static vector<string> uargv;
    /*
     * parameter arguments counter
     */
    static int pargc;
    /*
     * map of parameter arguments and their values obtained automatically
     * from the command line arguments as those declared in the 'params' map
     * (example: ./run_tests user_param --loop=10 ==> pargv["loop"] == "10")
     */
    static map<string, string> pargv;
    /*
     * number of times each test with '__loop' suffix is to be executed
     */
    static int loop;
    /*
     * number of times each suite with '__loop' suffix is to be executed
     */
    static int suite_loop;
    /*
     * number of times current suite with '__loop' suffix was executed
     */
    static int suite_counter;
    /*
     * map of predefined parameter names and their declarations (the way of usage in the command line)
     * (example: params["loop"] = "--loop=" ==> ./run_tests user_param --loop=10)
     */
    static map<string, vector<string> > params;
    /*
     * executable name
     */
    static string executable_name;
    /*
     * list of expected user arguments; printed out if provided arguments do not match the expected in quantity
     */
    static vector<string> uargs_validate;
    /*
     * descriptions of expected user arguments; printed out if provided arguments do not match the expected in quantity
     */
    static vector<string> uargs_desc;
    /*
     * list of expected mandatory parameters; printed out if provided arguments do not match the expected in quantity
     */
    static set<string> params_validate;
    /*
     * list of expected optional parameters; printed out if provided arguments do not match the expected in quantity
     */
    static set<string> params_opt_validate;
    /*
     * list of expected local parameters; printed out if provided arguments do not match the expected in quantity
     */
    static map<string, string> params_loc_validate;
    /*
     * flag indicating if provided arguments are valid (in terms of quantity)
     */
    static bool args_valid;
    /*
     * set containing registered names of the methods which are to be called to restore original device settings
     * in case a test case fails before restoring these settings by itself
     */
    static set<string> restore_points;

public:
#ifdef cout
#define cout_stored cout
#undef cout
#endif
    TangoPrinter(CXXTEST_STD(ostream) &o = CXXTEST_STD(cout), const char *preLine = ":", const char *postLine = "")
        :
        ErrorFormatter(new Adapter(o), preLine, postLine)
    {}
#ifdef cout_stored
#define cout cout_stored
#endif

    virtual ~TangoPrinter()
    { delete outputStream(); }

    /*
     * Prints out formatted name of each test suite.
     * Use the following test suite naming convention:
     * 		MySuiteNameTestSuite
     * The suffix TestSuite is removed, prefix Testing is prepended
     * and spaces are added before each capital letter.
     * As the effect we get:
     * 		Testing My Suite Name :
     */
    void enterSuite(const SuiteDescription &)
    {
        params_opt_validate.clear();
        params_validate.clear();
        uargs_validate.clear();
        uargs_desc.clear();
        restore_points.clear();
        args_valid = true;
        string suite_name = tracker().suite().suiteName();
        size_t suffix_pos = suite_name.rfind("TestSuite");
        size_t suite_name_len = suite_name.length();
        string loop_str = "__loop";
        size_t loop_str_len = loop_str.length();
        bool is_suite_loop = suite_name_len >= loop_str_len
            && suite_name.substr(suite_name_len - loop_str_len, loop_str_len).compare(loop_str) == 0;

        if (suffix_pos != string::npos)
        {
//        		suite_name.erase(suffix_pos,9);
            suite_name.erase(suffix_pos);
        }
        for (size_t i = 1; i < suite_name.size(); i++)
        {
            if (isupper(suite_name[i]) && islower(suite_name[i - 1]))
            {
                suite_name.insert(i, " ");
            }
        }
        if (!is_suite_loop || suite_loop < 2)
            cout << "\nTesting " << suite_name << " :\n\n";
        else
            cout << "\nTesting " << suite_name << ", " << suite_loop << " iterations :\n\n";
    }

    /*
     * Checks if a test failed and exits.
     * If not, checks if the "loop" parameter has been defined
     * and runs all tests which names end with "__loop"
     * the number of times indicated by the parameter.
     */
    void leaveTest(const TestDescription &test)
    {
        static int counter = loop - 1;
        if (tracker().testFailed())
        {
            const SuiteDescription &suite_tmp = tracker().suite();
            (const_cast<SuiteDescription &>(suite_tmp)).tearDown();
            cout << "TEST FAILED in:\n" << loop - counter << " iteration of test case\n" << suite_counter
                 << " iteration of test suite\n\n";
            exit(-1);
        }
        else
        {
            string test_name = test.testName();
            size_t test_name_len = test_name.length();
            string loop_str = "__loop";
            size_t loop_str_len = loop_str.length();
            bool is_loop = false;
            if (test_name_len >= loop_str_len)
                is_loop = test_name.substr(test_name_len - loop_str_len, loop_str_len).compare(loop_str) == 0;
            if (counter > 0 && is_loop)
            {
                counter--;
                (const_cast<TestDescription &>(test)).setUp();
                (const_cast<TestDescription &>(test)).run();
                (const_cast<TestDescription &>(test)).tearDown();
                leaveTest(test);
            }
            else
            {
                // removes 'test' prefix from the test name
                if (test_name.find("test_") == 0)
                    test_name.erase(0, 5);
                else if (test_name.find("test") == 0)
                    test_name.erase(0, 4);

                // removes the "__loop" suffix from the test name
                size_t loop_pos = test_name.rfind(loop_str);
                if (loop_pos != string::npos && loop_pos == test_name.length() - loop_str.length())
                    test_name.erase(loop_pos, loop_str.length());

                // replaces underscores '_' with spaces ' ' in the test name
                for (size_t i = 0; i < test_name.size(); i++)
                {
                    if (test_name[i] == '_')
                        test_name[i] = ' ';
                }

                // prints out the the success notice only after the last iteration
                // of test case execution in the last iteration of the test suite run
                string suite_name = tracker().suite().suiteName();
                size_t suite_name_len = suite_name.length();
                string loop_str = "__loop";
                size_t loop_str_len = loop_str.length();
                bool is_suite_loop = false;
                if (suite_name_len >= loop_str_len)
                    is_suite_loop =
                        suite_name.substr(suite_name_len - loop_str_len, loop_str_len).compare(loop_str) == 0;
                if (!is_suite_loop || (is_suite_loop && suite_counter >= suite_loop))
                {
                    if (!is_loop || loop < 2)
                        cout << "\t" << test_name << " --> OK\n";
                    else
                        cout << "\t" << test_name << ", " << loop << " iterations --> OK\n";
                }

                counter = loop - 1;
            }
        }
    }

    void leaveSuite(const SuiteDescription &suite)
    {
        string suite_name = suite.suiteName();
        size_t suite_name_len = suite_name.length();
        string loop_str = "__loop";
        size_t loop_str_len = loop_str.length();
        if (suite_counter < suite_loop && suite_name_len >= loop_str_len
            && suite_name.substr(suite_name_len - loop_str_len, loop_str_len).compare(loop_str) == 0)
        {
            unsigned int num_tests = (const_cast<SuiteDescription &>(suite)).numTests();
            while (suite_counter < suite_loop)
            {
                params_opt_validate.clear();
                params_validate.clear();
                uargs_validate.clear();
                restore_points.clear();
                args_valid = true;
                suite_counter++;
                TestDescription *test = (const_cast<SuiteDescription &>(suite)).firstTest();
                (const_cast<SuiteDescription &>(suite)).setUp();
                unsigned int test_counter = 0;
                while (test_counter < num_tests && test != 0)
                {
                    tracker().enterTest(*test);
                    test->setUp();
                    test->run();
                    leaveTest(*test);
                    test->tearDown();
                    test = test->next();
                    test_counter++;
                }
                (const_cast<SuiteDescription &>(suite)).tearDown();
            }
            suite_counter = 1;
        }
        cout << "\n";
    }

    int run(int argc_tmp, char **argv_tmp)
    {
        argc = argc_tmp;
        argv = argv_tmp;

        if (argc >= 1)
            executable_name = argv[0];

        // compares if argument list contains any parameter from predefined list
        for (int i = 1; i < argc; i++)
        {
            string arg_tmp = argv[i];
            bool is_param = false;

            for (map<string, vector<string> >::iterator it = params.begin(); it != params.end(); ++it)
            {
                string param_key = it->first;
                string param_value = it->second[0];
                string param_desc = it->second[1];

                int param_value_length = param_value.length();
                if (param_value.compare(arg_tmp.substr(0, param_value_length)) == 0)
                {
                    // checks if the parameter has already been used to accept value of only the first occurrence of the parameter
                    if (pargv.size() > 0 && pargv.find(param_key) != pargv.end())
                    {
                        is_param = true;
                        break;
                    }
                    is_param = true;
                    pargv[param_key] = arg_tmp.substr(param_value_length, arg_tmp.length() - param_value_length);
                    pargc = pargv.size();
                    break;
                }
            }
            if (!is_param)
                uargv.push_back(argv[i]);
        }
        uargc = uargv.size();

        // prints out the list of all parameters if required by user ("--?" or "--help")
        if (TangoPrinter::is_param_set("?") || TangoPrinter::is_param_set("help") || TangoPrinter::is_param_set("-?")
            || TangoPrinter::is_param_set("-help"))
        {
            cout << "\nAll parameters:";
            for (map<string, vector<string> >::iterator it = TangoPrinter::params.begin();
                 it != TangoPrinter::params.end(); ++it)
            {
                cout << "\n\t" << it->second[0] << " - " << it->second[1];
            }
            cout << "\n";
            exit(0);
        }

        // atoi() converts string into integer; if not possible, returns 0
        if (is_param_defined("loop"))
            loop = atoi(get_param_val("loop").c_str());

        // atoi() converts string into integer; if not possible, returns 0
        if (is_param_defined("suiteloop"))
            suite_loop = atoi(get_param_val("suiteloop").c_str());

        TestRunner::runAllTests(*this);
        return tracker().failedTests();
    }

    /*
     * registers a restore point to take up an action in TestSuite tearDown method
     * in case a test case does not restore the default device properties
     */
    static void restore_set(const char *name)
    {
        restore_set(string(name));
    }

    /*
     * registers a restore point to take up an action in TestSuite tearDown method
     * in case a test case does not restore the default device properties
     */
    static void restore_set(const string &name)
    {
        restore_points.insert(name);
    }

    /*
     * unregisters the restore point (after the test case had successfully restored the default device properties)
     */
    static void restore_unset(const char *name)
    {
        restore_unset(string(name));
    }

    /*
     * unregisters the restore point (after the test case had successfully restored the default device properties)
     */
    static void restore_unset(const string &name)
    {
        restore_points.erase(name);
    }

    /*
     * checks if the restore point has been registered
     */
    static bool is_restore_set(const char *name)
    {
        return is_restore_set(string(name));
    }

    /*
     * checks if the restore point has been registered
     */
    static bool is_restore_set(const string &name)
    {
        bool result = false;
        if (!restore_points.empty())
            if (restore_points.find(name) != restore_points.end())
                result = true;
        return result;
    }

    static unsigned int get_argc(void)
    {
        return argc;
    }

    static char **get_argv(void)
    {
        return argv;
    }

    static vector<string> &get_uargv(void)
    {
        return uargv;
    }

    static unsigned int get_uargc(void)
    {
        return uargc;
    }

    /*
     * returns number of predefined parameters used in command line by user
     */
    static unsigned int get_pargc(void)
    {
        return pargc;
    }

    /*
     * checks if parameter of given name was used by user in command line
     */
    static bool is_param_set(const string &key)
    {
        if (pargv.size() > 0 && pargv.find(key) != pargv.end())
            return true;
        else
            return false;
    }

    /*
     * checks if local parameter of given name was used by user in command line
     */
    static bool is_param_loc_set(const string &key)
    {
        string def = "--" + key + "=";
        for (vector<string>::iterator it = uargv.begin(); it != uargv.end(); ++it)
        {
            if (def == (*it).substr(0, def.size()))
                return true;
        }
        return false;
    }

    /*
     * returns value of the parameter of given name in the form of string
     */
    static string get_param_val(const string &key)
    {
        if (pargv.size() > 0 && pargv.find(key) != pargv.end())
            return pargv[key];
        else
            return "";
    }

    /*
     * returns value of the local parameter of given name in the form of string
     */
    static string get_param_loc_val(const string &key)
    {
        string def = "--" + key + "=";
        for (vector<string>::iterator it = uargv.begin(); it != uargv.end(); ++it)
        {
            if (def == (*it).substr(0, def.size()))
                return (*it).substr(def.size(), (*it).size() - def.size());
        }
        return "";
    }

    /*
     * checks if parameter of given name was defined
     */
    static bool is_param_defined(const string &key)
    {
        if (params.size() > 0 && params.find(key) != params.end())
            return true;
        else
            return false;
    }

    /*
     * returns parameter definition based on it's name
     */
    static string get_param_def(const string &key)
    {
        if (params.size() > 0 && params.find(key) != params.end())
            return params[key][0];
        else
            return "";
    }

    /*
     * returns parameter description based on it's name
     */
    static string get_param_desc(const string &def)
    {
        if (params.size())// > 0 && params.find(key) != params.end())
            for (map<string, vector<string> >::iterator it = params.begin(); it != params.end(); ++it)
                if (it->second[0] == def)
                    return it->second[1];
        return "";
    }

    /*
     * returns local parameter description based on it's name
     */
    static string get_param_loc_desc(const string &param)
    {
        if (params_loc_validate.size())
        {
            map<string, string>::iterator it = params_loc_validate.find(param);
            if (it != params_loc_validate.end())
                return it->second;
        }
        return "";
    }

    /*
     * returns user argument description based on it's name
     */
    static string get_uarg_desc(const string &uarg)
    {
        if (uargs_validate.size()
            && uargs_validate.size() == uargs_desc.size())// > 0 && params.find(key) != params.end())
            for (size_t i = 0; i < uargs_validate.size(); i++)
                if (uargs_validate[i] == uarg)
                    return uargs_desc[i];
        return "";
    }

    static map<string, vector<string> > &get_params(void)
    {
        return params;
    }

    static string &get_executable_name(void)
    {
        return executable_name;
    }

    /*
     * registers user argument on the list, returns its value (if set) or empty string
     */
    static string get_uarg(const string &uarg)
    {
        string desc = "user defined argument";
        return get_uarg(uarg, desc);
    }

    /*
     * registers user argument and its description on the list, returns its value (if set) or empty string
     */
    static string get_uarg(const string &uarg, const string &desc)
    {
        string uarg_val = "";
        uargs_validate.push_back(uarg);
        uargs_desc.push_back(desc);
        if (get_uargc() >= uargs_validate.size())
            uarg_val = get_uargv()[uargs_validate.size() - 1];
        else
            args_valid = false;
        return uarg_val;
    }

    /*
     * registers description of mandatory parameter on the list, returns its value (if set) or empty string
     */
    static string get_param(const string &param)
    {
        string param_val = "";
        if (is_param_defined(param))
        {
            params_validate.insert(get_param_def(param));
            if (!is_param_set(param))
                args_valid = false;
            param_val = get_param_val(param);
        }
        return param_val;
    }

    /*
     * registers description of optional parameter on the list, returns its value (if set) or empty string
     */
    static string get_param_opt(const string &param)
    {
        string param_val = "";
        if (is_param_defined(param))
        {
            params_opt_validate.insert(get_param_def(param));
            param_val = get_param_val(param);
        }
        return param_val;
    }

    /*
     * registers description of optional parameter on the list, returns its value (if set) or empty string
     */
    static string get_param_loc(const string &param)
    {
        string desc = "user defined parameter";
        return get_param_loc(param, desc);
    }

    /*
     * registers description of optional parameter on the list, returns its value (if set) or empty string
     */
    static string get_param_loc(const string &param, const string &desc)
    {
        string param_val = "";
        if (!is_param_defined(param))
        {
            params_loc_validate["--" + param + "="] = desc;
            if (!is_param_loc_set(param))
                args_valid = false;
            param_val = get_param_loc_val(param);
        }
        else
        {
            // the parameter has already been defined as mandatory
            cout << "Parameter '" << param
                 << "' is one of the predefined parameters.\nUse CxxTest::TangoPrinter::get_param(\"" << param
                 << "\") method instead.\n";
            exit(-1);
        }
        return param_val;
    }

    /*
     * registers description of optional parameter on the list, returns true if parameter has been set
     * (useful when no value for parameter is expected e.g. "--v")
     */
    static bool is_param_opt_set(const string &param)
    {
        bool param_opt_set = false;
        if (is_param_defined(param))
        {
            params_opt_validate.insert(get_param_def(param));
            if (is_param_set(param))
                param_opt_set = true;
        }
        return param_opt_set;
    }

    /*
     * checks if all required arguments have been properly set, if not prints out usage hint and terminates
     */
    static void validate_args()
    {
        if (!args_valid)
        {
            cout << "Usage: " << get_executable_name();

            for (size_t i = 0; i < uargs_validate.size(); i++)
                cout << " " << uargs_validate[i];

            for (map<string, string>::iterator it = params_loc_validate.begin(); it != params_loc_validate.end(); ++it)
                cout << " " << it->first;

            for (set<string>::iterator it = params_validate.begin(); it != params_validate.end(); ++it)
                cout << " " << *it;

            for (set<string>::iterator it = params_opt_validate.begin(); it != params_opt_validate.end(); ++it)
                cout << " [" << *it << "]";

            if (uargs_validate.size() != 0)
            {
                cout << "\nExplanation:";
                if (uargs_validate.size() != 0 && uargs_validate.size() == uargs_desc.size())
                {
                    cout << "\nUser arguments:";
                    for (size_t i = 0; i < uargs_validate.size(); i++)
                        cout << "\n\t" << uargs_validate[i] << " - " << uargs_desc[i];
                }
            }

            if (params_validate.size() != 0 || params_opt_validate.size() != 0 || params_loc_validate.size() != 0)
            {
                cout << "\nParameters:";
                if (params_loc_validate.size() != 0)
                {
                    cout << "\nLocal:";
                    for (map<string, string>::iterator it = params_loc_validate.begin();
                         it != params_loc_validate.end(); ++it)
                        cout << "\n\t" << it->first << " - " << get_param_loc_desc(it->first);
                }

                if (params_validate.size() != 0)
                {
                    cout << "\nMandatory:";
                    for (set<string>::iterator it = params_validate.begin(); it != params_validate.end(); ++it)
                        cout << "\n\t" << *it << " - " << get_param_desc(*it);
                }

                if (params_opt_validate.size() != 0)
                {
                    cout << "\nOptional:";
                    for (set<string>::iterator it = params_opt_validate.begin(); it != params_opt_validate.end(); ++it)
                        cout << "\n\t" << *it << " - " << get_param_desc(*it);
                }
            }

            cout << "\n";
            exit(-1);
        }
    }

    /*
     * helper function to create a vector containing a parameter description
     */
    static vector<string> param_desc(string param, string desc)
    {
        vector<string> param_desc_tmp;
        param_desc_tmp.push_back(param);
        param_desc_tmp.push_back(desc);
        return param_desc_tmp;
    }

    /*
     * declare predefined parameters here
     */
    static map<string, vector<string> > create_params()
    {
        map<string, vector<string> > params_tmp;
        params_tmp["?"] = param_desc("--?", "help, lists all possible parameters");
        params_tmp["-?"] = param_desc("-?", "help, lists all possible parameters");
        params_tmp["help"] = param_desc("--help", "help, lists all possible parameters");
        params_tmp["-help"] = param_desc("-help", "help, lists all possible parameters");
        params_tmp["verbose"] = param_desc("--v", "verbose mode");
        params_tmp["loop"] =
            param_desc("--loop=", "execute test cases marked with '__loop' suffix the indicated number of times");
        params_tmp["suiteloop"] = param_desc("--suiteloop=",
                                             "execute test suites marked with '__loop' suffix the indicated number of times"); // executes suite in a loop
        params_tmp["device1"] = param_desc("--device1=", "device1 name, e.g. test/device/1");
        params_tmp["device2"] = param_desc("--device2=", "device2 name, e.g. test/device/2");
        params_tmp["device3"] = param_desc("--device3=", "device3 name, e.g. test/device/3");
            params_tmp["device20"] = param_desc("--device20=", "device20 name, e.g. test2/debian8/20");
        params_tmp["fulldsname"] = param_desc("--fulldsname=", "full device server name, e.g. devTest/myserver");
        params_tmp["clienthost"] = param_desc("--clienthost=",
                                              "client host's fully qualified domain name, e.g. mypc.myinstitute.com (small caps)");
        params_tmp["serverhost"] = param_desc("--serverhost=",
                                              "fully qualified domain name of the host on which the server is running, e.g. myserver.myinstitute.com (small caps)");
        params_tmp["serverversion"] = param_desc("--serverversion=", "IDL version, e.g. 4");
        params_tmp["dbserver"] = param_desc("--dbserver=", "database server name, e.g. sys/database/2");
        params_tmp["loglevel"] =
            param_desc("--loglevel=", "default device logging level, e.g. 0"); // default device logging level, e.g. 0
        params_tmp["dsloglevel"] = param_desc("--dsloglevel=",
                                              "default device server logging level, e.g. 3"); // default device server logging level, e.g. 3
        params_tmp["devtype"] = param_desc("--devtype=", "device type, e.g. TestDevice");
        params_tmp["docurl"] = param_desc("--docurl=", "current documentation URL, e.g. http://www.tango-controls.org");
        params_tmp["outpath"] = param_desc("--outpath=",
                                           "device server logging target directory, e.g. /tmp/"); // device server logging target directory, e.g. /tmp/
        params_tmp["refpath"] = param_desc("--refpath=",
                                           "directory where the 'compare test' reference files (*.out) are stored"); // directory where the compare test reference files (*.out) are stored
        params_tmp["devicealias"] = param_desc("--devicealias=", "device1 alias"); // device1 alias
        params_tmp["attributealias"] = param_desc("--attributealias=", "Short_attr alias"); // Short_attr alias
        return params_tmp;
    }

        static void start_server(const std::string& instance){
            std::string command = Tango::kStartServerCmd;
            command += instance;
            system(command.c_str());
        }

        static void kill_server() {
            system(Tango::kKillServerCmd.c_str());
        }

private:
    class Adapter: public OutputStream
    {
        CXXTEST_STD(ostream) &_o;
    public:
        Adapter(CXXTEST_STD(ostream) &o)
            : _o(o)
        {}
        void flush()
        { _o.flush(); }
        OutputStream &operator<<(const char *s)
        {
            _o << s;
            return *this;
        }
        OutputStream &operator<<(Manipulator m)
        { return OutputStream::operator<<(m); }
        OutputStream &operator<<(unsigned i)
        {
            char s[1 + 3 * sizeof(unsigned)];
            numberToString(i, s);
            _o << s;
            return *this;
        }
    };
};

int TangoPrinter::argc = 0;

char **TangoPrinter::argv = 0;

int TangoPrinter::uargc = 0;

vector<string> TangoPrinter::uargv;

int TangoPrinter::pargc = 0;

map<string, string> TangoPrinter::pargv;

int TangoPrinter::loop = 0;

map<string, vector<string> > TangoPrinter::params = TangoPrinter::create_params();

string TangoPrinter::executable_name = "";

int TangoPrinter::suite_loop = 0;

int TangoPrinter::suite_counter = 1;

vector<string> TangoPrinter::uargs_validate;

vector<string> TangoPrinter::uargs_desc;

set<string> TangoPrinter::params_validate;

set<string> TangoPrinter::params_opt_validate;

map<string, string> TangoPrinter::params_loc_validate;

bool TangoPrinter::args_valid = true;

set<string> TangoPrinter::restore_points = set<string>();
}

#endif // __cxxtest__TangoPrinter_h__
